[v3,11/20] util/dsa: Implement DSA task asynchronous submission and wait for completion.

Commit Message

Hao Xiang Jan. 4, 2024, 12:44 a.m. UTC

* Add a DSA task completion callback.
* DSA completion thread will call the tasks's completion callback
on every task/batch task completion.
* DSA submission path to wait for completion.
* Implement CPU fallback if DSA is not able to complete the task.

Signed-off-by: Hao Xiang <hao.xiang@bytedance.com>
Signed-off-by: Bryan Zhang <bryan.zhang@bytedance.com>
---
 include/qemu/dsa.h |  14 +++++
 util/dsa.c         | 147 ++++++++++++++++++++++++++++++++++++++++++++-
 2 files changed, 158 insertions(+), 3 deletions(-)

Comments

Jonathan Cameron March 8, 2024, 10:10 a.m. UTC | #1

On Thu,  4 Jan 2024 00:44:43 +0000
Hao Xiang <hao.xiang@bytedance.com> wrote:

> * Add a DSA task completion callback.
> * DSA completion thread will call the tasks's completion callback
> on every task/batch task completion.
> * DSA submission path to wait for completion.
> * Implement CPU fallback if DSA is not able to complete the task.
> 
> Signed-off-by: Hao Xiang <hao.xiang@bytedance.com>
> Signed-off-by: Bryan Zhang <bryan.zhang@bytedance.com>

Hi,

One naming comment inline. You had me confused on how you were handling async
processing at where this is used.   Answer is that I think you aren't!

>  
> +/**
> + * @brief Performs buffer zero comparison on a DSA batch task asynchronously.
The hardware may be doing it asynchronously but unless that
buffer_zero_dsa_wait() call doesn't do what it's name suggests, this function
is wrapping the async hardware related stuff to make it synchronous.

So name it buffer_is_zero_dsa_batch_sync()!

Jonathan

> + *
> + * @param batch_task A pointer to the batch task.
> + * @param buf An array of memory buffers.
> + * @param count The number of buffers in the array.
> + * @param len The buffer length.
> + *
> + * @return Zero if successful, otherwise non-zero.
> + */
> +int
> +buffer_is_zero_dsa_batch_async(struct dsa_batch_task *batch_task,
> +                               const void **buf, size_t count, size_t len)
> +{
> +    if (count <= 0 || count > batch_task->batch_size) {
> +        return -1;
> +    }
> +
> +    assert(batch_task != NULL);
> +    assert(len != 0);
> +    assert(buf != NULL);
> +
> +    if (count == 1) {
> +        /* DSA doesn't take batch operation with only 1 task. */
> +        buffer_zero_dsa_async(batch_task, buf[0], len);
> +    } else {
> +        buffer_zero_dsa_batch_async(batch_task, buf, count, len);
> +    }
> +
> +    buffer_zero_dsa_wait(batch_task);
> +    buffer_zero_cpu_fallback(batch_task);
> +
> +    return 0;
> +}
> +
>  #endif
>

Hao Xiang March 8, 2024, 9:50 p.m. UTC | #2

> 
> On Fri, Mar 8, 2024 at 2:11 AM Jonathan Cameron
> 
> <Jonathan.Cameron@huawei.com> wrote:
> 
> > 
> > On Thu, 4 Jan 2024 00:44:43 +0000
> > 
> >  Hao Xiang <hao.xiang@bytedance.com> wrote:
> > 
> >  * Add a DSA task completion callback.
> > 
> >  * DSA completion thread will call the tasks's completion callback
> > 
> >  on every task/batch task completion.
> > 
> >  * DSA submission path to wait for completion.
> > 
> >  * Implement CPU fallback if DSA is not able to complete the task.
> > 
> >  Signed-off-by: Hao Xiang <hao.xiang@bytedance.com>
> > 
> >  Signed-off-by: Bryan Zhang <bryan.zhang@bytedance.com>
> > 
> >  Hi,
> > 
> >  One naming comment inline. You had me confused on how you were handling async
> > 
> >  processing at where this is used. Answer is that I think you aren't!
> > 
> >  +/**
> > 
> >  + * @brief Performs buffer zero comparison on a DSA batch task asynchronously.
> > 
> >  The hardware may be doing it asynchronously but unless that
> > 
> >  buffer_zero_dsa_wait() call doesn't do what it's name suggests, this function
> > 
> >  is wrapping the async hardware related stuff to make it synchronous.
> > 
> >  So name it buffer_is_zero_dsa_batch_sync()!
> > 
> >  Jonathan


Thanks for reviewing this. The first completion model I tried was to use a busy loop to pull for completion on the submission thread but it turns out to have too much unnecessary overhead. Think about 10 threads all submitting tasks and we end up having 10 busy loops. I moved the completion work to a dedicated thread and named it async! However, the async model doesn't fit well with the current live migration thread model so eventually I added a wait on the submission thread. It was intended to be async but I agree that it is not currently. I will rename it in the next revision.

> > 
> >  + *
> > 
> >  + * @param batch_task A pointer to the batch task.
> > 
> >  + * @param buf An array of memory buffers.
> > 
> >  + * @param count The number of buffers in the array.
> > 
> >  + * @param len The buffer length.
> > 
> >  + *
> > 
> >  + * @return Zero if successful, otherwise non-zero.
> > 
> >  + */
> > 
> >  +int
> > 
> >  +buffer_is_zero_dsa_batch_async(struct dsa_batch_task *batch_task,
> > 
> >  + const void **buf, size_t count, size_t len)
> > 
> >  +{
> > 
> >  + if (count <= 0 || count > batch_task->batch_size) {
> > 
> >  + return -1;
> > 
> >  + }
> > 
> >  +
> > 
> >  + assert(batch_task != NULL);
> > 
> >  + assert(len != 0);
> > 
> >  + assert(buf != NULL);
> > 
> >  +
> > 
> >  + if (count == 1) {
> > 
> >  + /* DSA doesn't take batch operation with only 1 task. */
> > 
> >  + buffer_zero_dsa_async(batch_task, buf[0], len);
> > 
> >  + } else {
> > 
> >  + buffer_zero_dsa_batch_async(batch_task, buf, count, len);
> > 
> >  + }
> > 
> >  +
> > 
> >  + buffer_zero_dsa_wait(batch_task);
> > 
> >  + buffer_zero_cpu_fallback(batch_task);
> > 
> >  +
> > 
> >  + return 0;
> > 
> >  +}
> > 
> >  +
> > 
> >  #endif
> >
>

Patch

diff --git a/include/qemu/dsa.h b/include/qemu/dsa.h
index 645e6fc367..e002652879 100644
--- a/include/qemu/dsa.h
+++ b/include/qemu/dsa.h
@@ -91,6 +91,20 @@  buffer_zero_batch_task_init(struct dsa_batch_task *task,
  */
 void buffer_zero_batch_task_destroy(struct dsa_batch_task *task);
 
+/**
+ * @brief Performs buffer zero comparison on a DSA batch task asynchronously.
+ *
+ * @param batch_task A pointer to the batch task.
+ * @param buf An array of memory buffers.
+ * @param count The number of buffers in the array.
+ * @param len The buffer length.
+ *
+ * @return Zero if successful, otherwise non-zero.
+ */
+int
+buffer_is_zero_dsa_batch_async(struct dsa_batch_task *batch_task,
+                               const void **buf, size_t count, size_t len);
+
 #else
 
 static inline bool dsa_is_running(void)
diff --git a/util/dsa.c b/util/dsa.c
index 9db4cfcf1d..5a2bf33651 100644
--- a/util/dsa.c
+++ b/util/dsa.c
@@ -473,6 +473,57 @@  poll_completion(struct dsa_completion_record *completion,
     return 0;
 }
 
+/**
+ * @brief Helper function to use CPU to complete a single
+ *        zero page checking task.
+ *
+ * @param completion A pointer to a DSA task completion record.
+ * @param descriptor A pointer to a DSA task descriptor.
+ * @param result A pointer to the result of a zero page checking.
+ */
+static void
+task_cpu_fallback_int(struct dsa_completion_record *completion,
+                      struct dsa_hw_desc *descriptor, bool *result)
+{
+    const uint8_t *buf;
+    size_t len;
+
+    if (completion->status == DSA_COMP_SUCCESS) {
+        return;
+    }
+
+    /*
+     * DSA was able to partially complete the operation. Check the
+     * result. If we already know this is not a zero page, we can
+     * return now.
+     */
+    if (completion->bytes_completed != 0 && completion->result != 0) {
+        *result = false;
+        return;
+    }
+
+    /* Let's fallback to use CPU to complete it. */
+    buf = (const uint8_t *)descriptor->src_addr;
+    len = descriptor->xfer_size;
+    *result = buffer_is_zero(buf + completion->bytes_completed,
+                             len - completion->bytes_completed);
+}
+
+/**
+ * @brief Use CPU to complete a single zero page checking task.
+ *
+ * @param task A pointer to the task.
+ */
+static void
+task_cpu_fallback(struct dsa_batch_task *task)
+{
+    assert(task->task_type == DSA_TASK);
+
+    task_cpu_fallback_int(&task->completions[0],
+                          &task->descriptors[0],
+                          &task->results[0]);
+}
+
 /**
  * @brief Complete a single DSA task in the batch task.
  *
@@ -574,6 +625,47 @@  exit:
     return ret;
 }
 
+/**
+ * @brief Use CPU to complete the zero page checking batch task.
+ *
+ * @param batch_task A pointer to the batch task.
+ */
+static void
+batch_task_cpu_fallback(struct dsa_batch_task *batch_task)
+{
+    assert(batch_task->task_type == DSA_BATCH_TASK);
+
+    struct dsa_completion_record *batch_completion =
+        &batch_task->batch_completion;
+    struct dsa_completion_record *completion;
+    uint8_t status;
+    bool *results = batch_task->results;
+    uint32_t count = batch_task->batch_descriptor.desc_count;
+
+    /* DSA is able to complete the entire batch task. */
+    if (batch_completion->status == DSA_COMP_SUCCESS) {
+        assert(count == batch_completion->bytes_completed);
+        return;
+    }
+
+    /*
+     * DSA encounters some error and is not able to complete
+     * the entire batch task. Use CPU fallback.
+     */
+    for (int i = 0; i < count; i++) {
+
+        completion = &batch_task->completions[i];
+        status = completion->status;
+
+        assert(status == DSA_COMP_SUCCESS ||
+            status == DSA_COMP_PAGE_FAULT_NOBOF);
+
+        task_cpu_fallback_int(completion,
+                              &batch_task->descriptors[i],
+                              &results[i]);
+    }
+}
+
 /**
  * @brief Handles an asynchronous DSA batch task completion.
  *
@@ -861,7 +953,6 @@  buffer_zero_batch_task_set(struct dsa_batch_task *batch_task,
  *
  * @return int Zero if successful, otherwise an appropriate error code.
  */
-__attribute__((unused))
 static int
 buffer_zero_dsa_async(struct dsa_batch_task *task,
                       const void *buf, size_t len)
@@ -880,7 +971,6 @@  buffer_zero_dsa_async(struct dsa_batch_task *task,
  * @param count The number of buffers.
  * @param len The buffer length.
  */
-__attribute__((unused))
 static int
 buffer_zero_dsa_batch_async(struct dsa_batch_task *batch_task,
                             const void **buf, size_t count, size_t len)
@@ -911,13 +1001,29 @@  buffer_zero_dsa_completion(void *context)
  *
  * @param batch_task A pointer to the buffer zero comparison batch task.
  */
-__attribute__((unused))
 static void
 buffer_zero_dsa_wait(struct dsa_batch_task *batch_task)
 {
     qemu_sem_wait(&batch_task->sem_task_complete);
 }
 
+/**
+ * @brief Use CPU to complete the zero page checking task if DSA
+ *        is not able to complete it.
+ *
+ * @param batch_task A pointer to the batch task.
+ */
+static void
+buffer_zero_cpu_fallback(struct dsa_batch_task *batch_task)
+{
+    if (batch_task->task_type == DSA_TASK) {
+        task_cpu_fallback(batch_task);
+    } else {
+        assert(batch_task->task_type == DSA_BATCH_TASK);
+        batch_task_cpu_fallback(batch_task);
+    }
+}
+
 /**
  * @brief Check if DSA is running.
  *
@@ -990,5 +1096,40 @@  void dsa_cleanup(void)
     dsa_device_group_cleanup(&dsa_group);
 }
 
+/**
+ * @brief Performs buffer zero comparison on a DSA batch task asynchronously.
+ *
+ * @param batch_task A pointer to the batch task.
+ * @param buf An array of memory buffers.
+ * @param count The number of buffers in the array.
+ * @param len The buffer length.
+ *
+ * @return Zero if successful, otherwise non-zero.
+ */
+int
+buffer_is_zero_dsa_batch_async(struct dsa_batch_task *batch_task,
+                               const void **buf, size_t count, size_t len)
+{
+    if (count <= 0 || count > batch_task->batch_size) {
+        return -1;
+    }
+
+    assert(batch_task != NULL);
+    assert(len != 0);
+    assert(buf != NULL);
+
+    if (count == 1) {
+        /* DSA doesn't take batch operation with only 1 task. */
+        buffer_zero_dsa_async(batch_task, buf[0], len);
+    } else {
+        buffer_zero_dsa_batch_async(batch_task, buf, count, len);
+    }
+
+    buffer_zero_dsa_wait(batch_task);
+    buffer_zero_cpu_fallback(batch_task);
+
+    return 0;
+}
+
 #endif